Three weeks of passive and intervallic heat at high temperatures (100?2?C) in a sauna improve acclimation to external heat (42?2?C) in untrained males

Currently, the effect of passive heat acclimation on aerobic performance is still controversial. Therefore, this study aimed to observe the effect of passive and intervallic exposure to high temperatures (100 ? 2 ?C) in untrained males. & nbsp; & nbsp; & nbsp;Forty healthy untrained men participated in this investigation. They were randomised into a Control Group (CG; n = 18) and an Experimental Group (EG; n = 22). Both groups performed maximum incremental tests until exhaustion in normothermia (GXT1; 22 ? 2 ?C), and 48h afterwards, in hyperthermia (GXT2; 42 ? 2 ?C). The EG performed 9 sessions of intervallic exposure to heat (100 ? 2 ?C) over 3 weeks. Subsequently, both groups performed two maximal incremental trials in normothermia (GXT3; 22 ? 2 ?C) and 48h later, in hyperthermia (GXT4; 42 ? 2 ?C). In each test, the maximal ergospirometric parameters and the aerobic (VT1), anaerobic (VT2) and recovery ventilatory thresholds were recorded. The Wilcoxon Test was used for intra-group comparisons and the Mann-Whitney U for inter-group comparisons. There were improvements in absolute VO2max (p = 0.049), W (p = 0.005) and O2pulse (p = 0.006) in hyperthermia. In VT1 there was an increase in W (p = 0.046), in VO2 in absolute (p = 0.025) and relative (p = 0.013) values, O2pulse (p = 0.006) and VE (p = 0.028) in hyperthermia. While W increased in hyperthermia (p = 0.022) at VT2. & nbsp; & nbsp; & nbsp; & nbsp; & nbsp; & nbsp;The results suggest that passive and intervallic acclimation at high temperatures improves performance in hyperthermia. This protocol could be implemented in athletes when they have to compete in hot environments.

Automated summary

The study suggests that both passive and intervallic acclimation to high temperatures can improve aerobic performance in hyperthermic conditions, which could benefit athletes competing in hot environments.